CN203128813U - Automatic thread supplying machine for carpet - Google Patents

Abstract

The utility model belongs to the technical field of weaving machines and relates to an automatic thread supplying machine for a carpet, in particular to an automatic thread supplying machine for a carpet, which is used for supplying wool to an 8-shaped buckle weaving process. The automatic thread supplying machine for the carpet comprises a thread supporting plate mechanism, a flocking mechanism, as well as a base plate mechanism, a thread supplying mechanism, a thread clamping mechanism, a thread hooking mechanism and a thread cutting mechanism, which are controlled by a programmable control center. According to the automatic thread supplying machine for the carpet, a carpet pattern file can be transmitted to a single chip microcomputer of the programmable control center through a serial port, and all the mechanisms of the thread supplying machine can be fully and automatically controlled by the single chip microcomputer; driving parts of all mechanisms adopt air cylinders or stepping motors and screw rods, so that all the mechanisms can be accurately positioned, connected and matched, manual thread separating and threading which are required in a conventional process are completely replaced, thread separating and threading can be performed rapidly and accurately according to a predetermined weaving procedure, and a wool material is supplied to a flocking technology, particularly for weaving of 8-shpaed buckles, in a carpet weaving process; and the automatic thread supplying machine for the carpet is high in automation degree and precise and ingenious in structural design, and has high use and promotion value.

Description

A kind of self-action carpet is for the line machine

Technical field

The utility model relates to the weaving machinery technical field, and especially a kind of self-action carpet that is used to 8 word button knitting process that line suede is provided supplies the line machine.

Background technology

Persia silk rug is the traditional handicraft of Iran, and is with a long history, world-famous.8 words of unique technology appearance style that Persia silk rug the has particularity of knot mode because of institutional framework of cramping, manual braiding or half machinery that general employing is traditional weave, also caused its knitting process complexity thus, braiding difficulty and the problem that labour intensity is big, production efficiency is low; Therefore, for the knitting skill of Persia silk rug, the improvement of equipment, mechanism or method that its any procedure is required all can be played crucial effects to whole knitting skill.

Several big steps such as known, the knitting process of Persia silk rug may be summarized to be menstruation regulating substantially, knits latitude, flocking; In the traditional handicraft, before the flocking operation, need artificial sub-argument to go out different line suede, threading manually, so that for the braiding of 8 word buttons provides line suede, but because design complexity, line velvet flowers look and the One's name is legion of carpet, before flocking temporarily by artificial separated time, problem such as life period is tight, difficulty is big, efficient is low; Though proposed some for line mechanism at this problem in the prior art, mechanism is comparatively fixing, still need manually carry out, automaticity is low.

The utility model content

At above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide the self-action carpet of a kind of automated procedures control, precision simple in structure for the line machine.

To achieve these goals, the utility model adopts following technical scheme:

A kind of self-action carpet is for the line machine, and it comprises

Control centor program 8, described control centor program 8 issues action command to base plate mechanism 1, confession line mechanism 2, clamp mechanism 5, hook line mechanism 4 and thread cutting mechanism 3;

Base plate mechanism 1, described base plate mechanism 1 upper edge Y-direction is equipped with thread cutting mechanism 3 successively, for line mechanism 2 and hook line mechanism 4, described control centor program 8 issues action command control thread cutting mechanism 3, does the motion of Y-direction sliding feed in base plate mechanism 1 simultaneously for line mechanism 2 and hook line mechanism 4;

For line mechanism 2, described control centor program 8 issues action command control and supplies line mechanism 2 that the line suede of system's appointment is transported to assigned address;

Clamp mechanism 5, described clamp mechanism 5 is installed in for line mechanism 2 tops, described control centor program 8 issues action command control clamp mechanism 5 and do the X-direction feed motion above base plate mechanism 1 and cable inlet bracket mechanism 7, and control clamp mechanism 5 and clamp by the line suede that is transported to assigned address for line mechanism 2, line suede is stretched along X-direction;

Hook line mechanism 4, described control centor program 8 issues after action command control hook line mechanism 4 passes flocking mechanism 6 and hook line suede, drives line suede and regains along Y-direction;

After thread cutting mechanism 3, described hook line mechanism 4 were stretched to assigned address with line suede, described control centor program sent instructions for 8 times and controls the line suede that thread cutting mechanism 3 is cut off confession line mechanism 2 ends;

Flocking mechanism 6, described flocking mechanism 6 is installed in the cable inlet bracket mechanism 7, and described cable inlet bracket mechanism 7 is arranged side by side for X-direction with base plate mechanism 1.

Preferably, described base plate mechanism 1 comprises base plate 101 and two first Y-direction slide rails 102 that are installed in side by side on the base plate 101, the Y-direction drive motors 103 that is subjected to control centor program's 8 controls is installed between two described first Y-direction slide rails 102, be nested with the first Y-direction opening slide 105 that is connected with middle plate 104 on the described first Y-direction slide rail 102, described thread cutting mechanism 3, confession line mechanism 2 and hook line mechanism 4 are fixed on the middle plate 104;

Plate 104 was done the Y-direction feed motion along the first Y-direction slide rail 102 during described Y-direction drive motors 103 driving Y-direction screw mandrels 106 drove.

Preferably, described cable inlet bracket mechanism 7 comprises ground floor cable inlet bracket 701 and second layer cable inlet bracket 702, and two second Y-direction slide rails 703 side by side are installed on the described ground floor cable inlet bracket 701;

Fixedly there are a plurality of second Y-direction opening slides 704 that are arranged side by side the bottom surface of described second layer cable inlet bracket 702, the described second Y-direction opening slide 704 correspondence respectively is nested on two second Y-direction slide rails 703, fixedly there are many row's X-direction slide rails 705 on the surface of described second layer cable inlet bracket 702, and described flocking mechanism 6 does the motion of X-direction sliding feed by a plurality of X-direction opening slides 706 that are fixed on its bottom in cable inlet bracket mechanism 7.

Preferably, described flocking mechanism 6 comprises fixed head 601, noseplate 602, threading sheet 603 and fixed axis 604, the front end of described fixed head 601 is provided with slot, the rear end of threading sheet 603 is installed in the slot of fixed head 601 by fixed axis 604, described noseplate 602 is provided with double-edged fine-toothed comb 605, and the front end of described threading sheet 603 is entrenched in the double-edged fine-toothed comb 605.

Preferably, described flocking mechanism 6 comprises fixed head 601 and threading sheet 603, and described fixed head 601 is provided with insert row 606, and described threading sheet 603 is contained in the insert row 606.

Preferably, describedly comprise stake body 201 and be installed in main line wheel 202 on the stake body 201, synchronous pulley 204, two from line wheel 203 and the belt wheel motor 205, the take-up motor 206 that are subjected to control centor program's 8 controls for line mechanism 2;

Described belt wheel motor 205 control synchronous pulleys 204 rotate, described synchronous pulley 204 drives main line by the Y-direction drive link 207 through stake body 201 and takes turns 202 coaxial rotation, 202 and two installation site distributions triangular in shape from line wheel 203 of described main line wheel, described main line wheel 202 is by being with 208 to drive two from line wheel 203 synchronously, and described being with synchronously is equipped with a plurality of spools 209 that supply on 208;

Described take-up motor 206 is positioned at the X-direction rear side with respect to main line wheel 202, and described take-up motor 206 drives a take-up sheet 210 and rotates up and down.

Preferably, described thread cutting mechanism 3 is installed in the Y-direction front side with respect to take-up motor 206, and described thread cutting mechanism 3 comprises the trimming cylinder 301 that is subjected to control centor program's 8 controls, and described trimming cylinder 301 drives thread trimmer 302 actions.

Preferably, described hook line mechanism 4 is installed in the Y-direction rear side with respect to take-up motor 206, and described hook line mechanism 4 comprises the hook line cylinder 401 that is subjected to control centor program 8 control, and described hook line cylinder 401 drives crochet hook 402 and does feed motion along Y-direction.

Preferably, described clamp mechanism 5 comprises the optical axis 501 that clamp body, two are arranged along X-direction and the clamp motor 502 that is subjected to control centor program's 8 controls, and an end of described clamp motor 502 and described optical axis 501 is fixed on on the line mechanism 2;

Described clamp body is socketed on the X-ray axle 501, and described clamp motor 502 is done the X-direction feed motion by driving the clamp bodies with the parallel conveyer belt 510 of optical axis 501 at optical axis 501.

Preferably, described clamp body comprises clip liner plate 503, clip cylinder block 504, is subjected to clamp cylinder 505 and elastic force cylinder 506, the clip 507 of control centor program's 8 controls and is used for the thrust plate 508 that auxiliary flocking mechanism 6 moves;

Described clip cylinder block 504 connects clamp cylinder 505 by clip liner plate 503, and described elastic force cylinder 506 is fixed on clip 507 in the clip cylinder block 504, and described thrust plate 508 is fixed between clamp cylinder 505 and the clip liner plate 503;

Described clamp cylinder 505 driving clips 507 move up and down along the axis direction of clip 507, the clamping degree of described elastic force cylinder 506 control clips 507, and described clamp cylinder 505 becomes 30 °-60 ° with the angle of optical axis 501.

Owing to adopted such scheme, the utility model can transfer to the carpet pattern file in the single-chip microcomputer of control centor program by serial ports, utilizes single-chip microcomputer that each mechanism for the line machine is realized full-automatic control; Because the drive part that adopts in each mechanism is cylinder or stepper motor and screw mandrel, make each mechanism can accurately locate, be connected, cooperate, replaced the work that needs manually to carry out separated time, threading in the traditional handicraft fully, can carry out separated time, threading fast and accurately according to predetermined knitting program, for the flocking technique in the braiding carpet process provides the line down material, especially the braiding of 8 word buttons, its automaticity height, structural design precision are ingenious, have very strong use value and promotional value.

Description of drawings

Fig. 1 is the control principle block diagram of the utility model embodiment;

Fig. 2 is the overall structure schematic diagram of the utility model embodiment;

Fig. 3 is the overall structure sectional drawing of the utility model embodiment;

Fig. 4 is the front view of the utility model embodiment;

Fig. 5 is the vertical view of the utility model embodiment;

Fig. 6 is the clamp mechanism structural representation of the utility model embodiment;

Fig. 7 is flocking mechanism and the cable inlet bracket mechanism combining structure front view () of the utility model embodiment;

Fig. 8 is flocking mechanism and the cable inlet bracket mechanism combining structure front view (two) of the utility model embodiment;

Fig. 9 is Fig. 8 structural representation of the utility model embodiment.

Among the figure:

1, base plate mechanism; 101, base plate; 102, the first Y-direction slide rail; 103, Y-direction drive motors; 104, middle plate; 105, the first Y-direction opening slide; 106, Y-direction screw mandrel;

2, for line mechanism; 201, stake body; 202, main line wheel; 203, take turns from line; 204, synchronous pulley; 205, belt wheel motor; 206, take-up motor; 207, Y-direction drive link; 208, be with synchronously; 209, for spool; 210, take-up sheet;

3, thread cutting mechanism; 301, trimming cylinder; 302, thread trimmer;

4, hook line mechanism; 401, hook line cylinder; 402, crochet hook;

5, clamp mechanism; 501, optical axis; 502, clamp motor; 503, clip liner plate; 504, clip cylinder block; 505, clamp cylinder; 506, elastic force cylinder; 507, clip; 508, thrust plate; 509, slide plate; 510, conveyer belt;

6, flocking mechanism; 601, fixed head; 602, noseplate; 603, threading sheet; 604, fixed axis; 605, double-edged fine-toothed comb; 606, insert row;

7, cable inlet bracket mechanism; 701, ground floor cable inlet bracket; 702, second layer cable inlet bracket; 703, the second Y-direction slide rail; 704, the second Y-direction opening slide; 705, X-direction slide rail; 706, X-direction opening slide;

8, control centor program; 801, single-chip microcomputer.

The specific embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

To shown in Figure 7, the self-action carpet of present embodiment is for the line machine as Fig. 1, and it comprises:

Control centor program 8, control centor program 8 comprises single-chip microcomputer 801, before braiding carpet, pattern file is transferred in the control centor program 8 by serial ports, make control centor program 8 issue action command as the control maincenter of whole carpet confession line machine to base plate mechanism 1, confession line mechanism 2, clamp mechanism 5, hook line mechanism 4 and thread cutting mechanism 3, accurately locate each mechanism.

Base plate mechanism 1, for providing support platform for line mechanism 2, thread cutting mechanism 3 and hook line mechanism 4, it comprises base plate 101 and two first Y-direction slide rails 102 that are installed in side by side on the base plate 101, the Y-direction drive motors 103 that is subjected to control centor program's control is installed between two first Y-direction slide rails 102, be nested with the first Y-direction opening slide 105 that is connected with middle plate 104 on the first Y-direction slide rail 102, thread cutting mechanism 3, for line mechanism 2 and hook line mechanism 4 in base plate mechanism 1 upper edge Y-direction is fixedly mounted on successively on the plate 104; And Y-direction drive motors 103 driving Y-direction screw mandrels 106 drive thread cutting mechanisms 3, do the Y-direction feed motion along the first Y-direction slide rail 102 simultaneously for line mechanism 2 and hook line mechanism 4 by middle plate 104.

For line mechanism 2, the line suede of control centor program's appointment is delivered to assigned address for 5 grippings of clamp mechanism, and it comprises stake body 201 and is installed in 202, two on main line wheel on the stake body 201 from line wheel 203, synchronous pulley 204 and the belt wheel motor 205, the take-up motor 206 that are subjected to control centor program's control.

Wherein, belt wheel motor 205 is controlled synchronous pulley 204 in the bel-drivenn mode and is rotated, synchronous pulley 204 drives main line by the Y-direction drive link 207 through stake body 201 and takes turns 202 coaxial rotation, 202 and two installation site distributions triangular in shape from line wheel 203 of main line wheel, main line wheel 202 is by being with 208 to drive two from line wheel 203 synchronously; Simultaneously, be with synchronously a plurality of spools 209 that supply are installed on 208, each all is installed with the required line suede of flocking operation in the spool 209, deposits line suede for conveniently getting, for inserting plastic flexible pipe in the spool 209.

Take-up motor 206 is positioned at the X-direction rear side with respect to main line wheel 202, and take-up motor 206 drives a take-up sheet 210 and rotates up and down, cooperates hook line mechanism 4 to carry out the hook line with auxiliary flocking mechanism 6.

Thread cutting mechanism 3 is used for cutting off the line suede for line mechanism 2 ends, finishes a procedure for preparation, and the Y-direction front side that it is installed in respect to take-up motor 206 comprises the trimming cylinder 301 that is subjected to control centor program's control, and trimming cylinder 301 drives thread trimmer 302 actions.

Hook line mechanism 4, being used for passing flocking mechanism 6 hooks line suede and drives line suede and regain along Y-direction, the Y-direction rear side that it is installed in respect to take-up motor 206 comprises the hook line cylinder 401 that is subjected to control centor program control, and hook line cylinder 401 drives crochet hook 402 and does feed motion along Y-direction.

Clamp mechanism 5 clamps by the line suede that is transported to assigned address for line mechanism 2, and drive line suede stretches along X-direction; It comprises the optical axis 501 that clamp body, two are arranged along X-direction and the clamp motor 502 that is subjected to control centor program's control, and an end of clamp motor 502 and optical axis 501 is fixed on on the stake body 201 of line mechanism 2; Thus, optical axis 501X is to unsettled flocking mechanism 6 and cable inlet bracket mechanism 7 tops of placing.

Wherein, the clamp body comprises clip liner plate 503, clip cylinder block 504, is subjected to clamp cylinder 505 and elastic force cylinder 506, the clip 507 of control centor program's control and is used for the thrust plate 508 that auxiliary flocking mechanism 6 moves; Clip cylinder block 504 connects clamp cylinder 505 by clip liner plate 503, elastic force cylinder 506 is fixed on clip 507 in the clip cylinder block 504, thrust plate 508 is fixed between clamp cylinder 505 and the clip liner plate 503, and the clamp cylinder becomes 30 °-60 ° with the angle of optical axis; By clamp cylinder 505 is fixedlyed connected with slide plate 509, make the clamp body be socketed on the optical axis 501, simultaneously, slide plate 509 also is fixedly connected on the conveyer belt 510 that walks abreast with optical axis 501.

Clamp motor 502 drives the clamp body by conveyer belt 510 and does the X-direction feed motion at optical axis 501; Clamp cylinder 505 driving clips 507 move up and down along the axis direction of clip 507, the clamping degree of elastic force cylinder 506 control clips 507.

Flocking mechanism 6 is used for the auxiliary finishing operation that the line down material is prepared of finishing, and it is installed in the cable inlet bracket mechanism 7, and it has two embodiment:

One is (as shown in Figure 7): it comprises fixed head 601, noseplate 602, threading sheet 603 and fixed axis 604, the front end of fixed head 601 is provided with slot, the rear end of threading sheet 603 is installed in the slot of fixed head 601 by fixed axis 604, noseplate 602 is provided with double-edged fine-toothed comb 605, threading sheet 603 is entrenched in the double-edged fine-toothed comb 605, to prevent that it from swinging, thus, threading sheet 603 can rotate around fixed axis 604.When clamp mechanism 5 moves ahead when carrying out clamp along X-direction, the thrust plate 508 of clamp mechanism 5 presses down threading sheet 603 after walking to threading sheet 603 places, and 603 rotations of threading sheet are contained in the slot and double-edged fine-toothed comb 605 of fixed head 601; When clamp mechanism 5 clamps after line suede recession is stretched to assigned address, for the take-up sheet 210 of line mechanism 2 603 rotations of threading sheet are lifted, the crochet hook 402 of being convenient to hook line mechanism 4 passes threading sheet 603 and carries out the hook line.

Another is (as Fig. 8 and shown in Figure 9): it comprises fixed head 601 and threading sheet 603, and fixed head 601 is provided with insert row 606, and threading sheet 603 is contained in the insert row 606; Flocking mechanism 6 adopts this mechanism can utilize advancing of clamp mechanism 5 and backward movement, and threading sheet 603 is withdrawed from so that hook line mechanism 4 carries out the hook line from insert row 606 interior propellings, and this moment is for omitting take-up motor 206 and take-up sheet 210 in the line machine.

Cable inlet bracket mechanism 7, be used for being fixed on the carpet loom, support flocking mechanism 6 and realize X-direction and the Y-direction motion of flocking mechanism 6, itself and base plate mechanism 1 are the X-direction setting that is arranged side by side, comprise ground floor cable inlet bracket 701 and second layer cable inlet bracket 702, two second Y-direction slide rails 703 side by side are installed on the ground floor cable inlet bracket 701; Fixedly there are a plurality of second Y-direction opening slides 704 that are arranged side by side the bottom surface of second layer cable inlet bracket 702, and the second Y-direction opening slide 704 respectively correspondence be nested on two second Y-direction slide rails 703, simultaneously, fixedly there are many row's X-direction slide rails 705 on the surface of second layer cable inlet bracket 702, and flocking mechanism 6 does the motion of X-direction sliding feed by a plurality of X-direction opening slides 706 that are fixed on its bottom in cable inlet bracket mechanism 7.In addition, the second Y-direction slide rail 703 on the cable inlet bracket 7, X-direction slide rail 705 are ignorant of when threading, only just can move when carpet woven is walked 8 word buttons carrying out.

As shown in Figure 1 and in conjunction with Fig. 2 to Fig. 9, the self-action carpet of present embodiment is for the control system of line machine, it comprises control centor program 8, control centor program 8 comprises single-chip microcomputer 801, and single-chip microcomputer 801 is according to programmed instruction control base plate mechanism 1, for line mechanism 2, thread cutting mechanism 3, hook line mechanism 4 and clamp mechanism 5.Be specially: single-chip microcomputer 801 is connected with Y-direction drive motors 103, belt wheel motor 205, clamp motor 502, take-up motor 206 information of carrying out, and by with the electromagnetic valve of the electromagnetic valve of the electromagnetic valve of the electromagnetic valve of trimming cylinder 301, hook line cylinder 401, clamp cylinder 505 and elastic force cylinder 506 be connected to control thread cutting mechanism 3, hook line mechanism 4 and clamp body.

To be numbered for the threading sheet 603 in spool 209 and the flocking mechanism 6 in the line mechanism 2, after, its control procedure is as follows:

1, Y-direction drive motors 103 drives the position that moves to appointment threading sheet 603 for line mechanism 2 along Y-direction according to the programmed instruction of single-chip microcomputer 801;

2, belt wheel motor 206 makes 202 rotations of main line wheel forward the spool 209 that supplies of appointment to assigned address according to the programmed instruction of single-chip microcomputer 801;

3, clamp motor 502 drives the clamp body according to the programmed instruction of single-chip microcomputer 801 and moves simultaneously clamp cylinder 505 along X-direction and drive clips 507 and make it arrive the clamp position; Then, after elastic force cylinder 506 made clip 507 clamp line suede, clamp motor 502 and clamp cylinder 505 drove clip 507 again and regain;

4, take-up motor 206 rotates according to the programmed instruction of single-chip microcomputer 801, orders about take-up sheet 210 threading sheet 603 is provoked;

5, hook line cylinder 401 drives the line hole that crochet hook 402 passes threading sheet 603 according to the programmed instruction of single-chip microcomputer 801; At this moment, clamp mechanism 5 stretches the line suede of clamping to far-end, and the pars intermedia branch of line suede takes and drops on the crochet hook 402;

6, trimming cylinder 301 is cut out line according to the programmed instruction driving thread trimmer 302 of single-chip microcomputer 801;

7, hook line cylinder 401 drives crochet hook 402 withdrawals, and at this moment, line suede becomes approximate " and not exclusively passes threading sheet 603;

8, clamp mechanism 5 clamps the continuation of line suede and moves to designated length to far-end, and at this moment, line suede breaks away from crochet hook 402 fully, and end is stayed in the threading sheet 603;

9, elastic force cylinder 506 driving clips 507 unclamp, and the line pile breaks away from clip;

10, take-up motor 206 upsets, clamp mechanism moves to above-mentioned threading sheet 603 tops again, and clamp cylinder 505 drives thrust plate 508 this threading sheet 603 is pressed reposition; Namely finish a working cycles.

The above only is preferred embodiment of the present utility model; be not so limit claim of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present utility model.

Claims (10)

1. a self-action carpet is for the line machine, and it is characterized in that: it comprises

Control centor program (8), described control centor program (8) issues action command to base plate mechanism (1), confession line mechanism (2), clamp mechanism (5), hook line mechanism (4) and thread cutting mechanism (3);

Base plate mechanism (1), described base plate mechanism (1) upper edge Y-direction is equipped with thread cutting mechanism (3) successively, supplies line mechanism (2) and hook line mechanism (4), and described control centor program (8) issues action command control thread cutting mechanism (3), does the motion of Y-direction sliding feed in base plate mechanism (1) simultaneously for line mechanism (2) and hook line mechanism (4);

For line mechanism (2), described control centor program (8) issues action command control and supplies line mechanism (2) that the line suede of system's appointment is transported to assigned address;

Clamp mechanism (5), described clamp mechanism (5) is installed in for line mechanism (2) top, described control centor program (8) issues action command control clamp mechanism (5) and does the X-direction feed motion in base plate mechanism (1) and cable inlet bracket mechanism (7) top, and control clamp mechanism (5) and clamp by the line suede that is transported to assigned address for line mechanism (2), line suede is stretched along X-direction;

Hook line mechanism (4), described control centor program (8) issues after action command control hook line mechanism (4) passes flocking mechanism (6) and hook line suede, drives line suede and regains along Y-direction;

After thread cutting mechanism (3), described hook line mechanism (4) were stretched to assigned address with line suede, the control thread cutting mechanism (3) that sends instructions under the described control centor program (8) was cut off the line suede for line mechanism (2) end;

Flocking mechanism (6), described flocking mechanism (6) are installed in the cable inlet bracket mechanism (7), and described cable inlet bracket mechanism (7) and base plate mechanism (1) are arranged side by side for X-direction.

2. a kind of self-action carpet as claimed in claim 1 is for the line machine, it is characterized in that: described base plate mechanism (1) comprises base plate (101) and two first Y-direction slide rails (102) that are installed in side by side on the base plate (101), the Y-direction drive motors (103) that is subjected to control centor program (8) control is installed between two described first Y-direction slide rails (102), be nested with the first Y-direction opening slide (105) that is connected with middle plate (104) on the described first Y-direction slide rail (102), described thread cutting mechanism (3), confession line mechanism (2) and hook line mechanism (4) are fixed on the middle plate (104);

Plate (104) was done the Y-direction feed motion along the first Y-direction slide rail (102) during described Y-direction drive motors (103) driving Y-direction screw mandrel (106) drove.

3. a kind of self-action carpet as claimed in claim 1 is for the line machine, it is characterized in that: described cable inlet bracket mechanism (7) comprises ground floor cable inlet bracket (701) and second layer cable inlet bracket (702), and two second Y-direction slide rails (703) side by side are installed on the described ground floor cable inlet bracket (701);

Fixedly there are a plurality of second Y-direction opening slides (704) that are arranged side by side the bottom surface of described second layer cable inlet bracket (702), the described second Y-direction opening slide (704) correspondence respectively is nested on two second Y-direction slide rails (703), fixedly there are many row's X-direction slide rails (705) on the surface of described second layer cable inlet bracket (702), and described flocking mechanism (6) does the motion of X-direction sliding feed by a plurality of X-direction opening slides (706) that are fixed on its bottom in cable inlet bracket mechanism (7).

4. a kind of self-action carpet as claimed in claim 1 is for the line machine, it is characterized in that: described flocking mechanism (6) comprises fixed head (601), noseplate (602), threading sheet (603) and fixed axis (604), the front end of described fixed head (601) is provided with slot, the rear end of threading sheet (603) is installed in the slot of fixed head (601) by fixed axis (604), described noseplate (602) is provided with double-edged fine-toothed comb (605), and the front end of described threading sheet (603) is entrenched in the double-edged fine-toothed comb (605).

5. a kind of self-action carpet as claimed in claim 1 is for the line machine, it is characterized in that: described flocking mechanism (6) comprises fixed head (601) and threading sheet (603), described fixed head (601) is provided with insert row (606), and described threading sheet (603) is contained in the insert row (606).

6. a kind of self-action carpet as claimed in claim 1 is characterized in that for the line machine: the described main line that supplies line mechanism (2) to comprise stake body (201) and be installed on the stake body (201) is taken turns (202), synchronous pulley (204), two belt wheel motor (205), take-up motors (206) of taking turns (203) and being subjected to control centor program (8) control from line;

Described belt wheel motor (205) control synchronous pulley (204) rotates, described synchronous pulley (204) drives main line wheel (202) coaxial rotation by the Y-direction drive link (207) through stake body (201), described main line wheel (202) and two installation site distributions triangular in shape from line wheel (203), described main line wheel (202) drives two from line wheel (203) by being with (208) synchronously, is equipped with a plurality of for spool (209) on the described synchronous band (208);

Described take-up motor (206) is positioned at the X-direction rear side with respect to main line wheel (202), and described take-up motor (206) drives a take-up sheet (210) and rotates up and down.

7. a kind of self-action carpet as claimed in claim 6 is for the line machine, it is characterized in that: described thread cutting mechanism (3) is installed in the Y-direction front side with respect to take-up motor (206), described thread cutting mechanism (3) comprises the trimming cylinder (301) that is subjected to control centor program (8) control, and described trimming cylinder (301) drives thread trimmer (302) action.

8. a kind of self-action carpet as claimed in claim 6 is for the line machine, it is characterized in that: described hook line mechanism (4) is installed in the Y-direction rear side with respect to take-up motor (206), described hook line mechanism (4) comprises the hook line cylinder (401) that is subjected to control centor program (8) control, and described hook line cylinder (401) drives crochet hook (402) and does feed motion along Y-direction.

9. supply the line machine as each described a kind of self-action carpet among the claim 1-8, it is characterized in that: described clamp mechanism (5) comprises the optical axis (501) that clamp body, two are arranged along X-direction and the clamp motor (502) that is subjected to control centor program (8) control, and an end of described clamp motor (502) and described optical axis (501) is fixed on the confession line mechanism (2);

Described clamp body is socketed on the X-ray axle (501), and described clamp motor (502) is done the X-direction feed motion by driving the clamp body with the parallel conveyer belt (510) of optical axis (501) at optical axis (501).

10. a kind of self-action carpet as claimed in claim 9 is characterized in that for the line machine: described clamp body comprises clip liner plate (503), clip cylinder block (504), is subjected to clamp cylinder (505) and elastic force cylinder (506), the clip (507) of control centor program (8) control and is used for the thrust plate (508) that auxiliary flocking mechanism (6) moves;

Described clip cylinder block (504) connects clamp cylinder (505) by clip liner plate (503), described elastic force cylinder (506) is fixed on clip (507) in the clip cylinder block (504), and described thrust plate (508) is fixed between clamp cylinder (505) and the clip liner plate (503);

Described clamp cylinder (505) driving clip (507) moves up and down along the axis direction of clip (507), the clamping degree of described elastic force cylinder (506) control clip (507), and described clamp cylinder (505) becomes 30 °-60 ° with the angle of optical axis (501).

Images